松树微卫星标记可将根系和外生菌根与单株树木联系起来。

Pine microsatellite markers allow roots and ectomycorrhizas to be linked to individual trees.

作者信息

Saari S K, Campbell C D, Russell J, Alexander I J, Anderson I C

机构信息

The Macaulay Institute, Craigiebuckler Aberdeen AB15 8QH, UK.

出版信息

New Phytol. 2005 Jan;165(1):295-304. doi: 10.1111/j.1469-8137.2004.01213.x.

DOI:10.1111/j.1469-8137.2004.01213.x

PMID:15720641

Abstract

Linking roots and ectomycorrhizas (EcM) to individual host trees in the field is required to test whether individual trees support different ectomycorrhizal communities. Here we describe a method that identifies the source of EcM roots by PCR of polymorphic pine nuclear microsatellite loci using fluorescently labelled primers and high-throughput fragment analysis. ITS-PCR can also be performed on the same EcM DNA extract for fungal identification. The method was tested on five neighbouring Scots pine (Pinus sylvestris var scotica) trees in native woodland. Successful host tree identification from DNA extracts of EcM root tips was achieved for 93% of all root fragments recovered from soil cores. It was estimated that each individual mature pine sampled was colonised by between 15 and 19 EcM fungi. The most abundant fungal species were found on all five trees, and within the constraints of the sampling scheme, no differences between trees in EcM fungal community structure or composition were detected.

摘要

为了测试个体树木是否支持不同的外生菌根群落，需要在野外将根和外生菌根（EcM）与单个宿主树联系起来。在这里，我们描述了一种方法，该方法通过使用荧光标记引物和高通量片段分析对多态性松树核微卫星位点进行PCR来识别EcM根的来源。也可以对相同的EcM DNA提取物进行ITS-PCR以进行真菌鉴定。该方法在原生林地的五棵相邻的苏格兰松（Pinus sylvestris var scotica）树上进行了测试。从土壤芯中回收的所有根片段中，93% 的EcM根尖DNA提取物成功鉴定出宿主树。据估计，每棵采样的成熟松树个体被15至19种EcM真菌定殖。在所有五棵树上都发现了最丰富的真菌物种，并且在采样方案的限制范围内，未检测到树木之间EcM真菌群落结构或组成的差异。

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松树微卫星标记可将根系和外生菌根与单株树木联系起来。

Pine microsatellite markers allow roots and ectomycorrhizas to be linked to individual trees.

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